Neural Models

We offer the following Neural Products. Click on the title of each product box for a more detailed description of the product.

Neural Media

Human Neural Stem/Progenitor Cells

Human Neural Stem/Progenitor Cells Transitioned for Differentiation

Human Neural Stem Cell Starter Kits

CryoNeurons™ Frozen Human Neurons

Rat Neural Stem/Progenitor Cells

Rat Neural Stem/Progenitor Cell Starter Kits

CryoNeurons™ Frozen Rat Neurons

Reagents for Neural Cells

Reduce, Refine and Replace (3Rs) the use of animals for primary rat neurons with neural stem cells that can be expanded at scale and differentiated into mature neurons with excitatory and inhibitory synapses in a physiologically relevant in vitro model of rat neurons. One vial containing 1.5M NSCs can be expanded to greater than 109 NSCs in less than 10 passages when grown in our Neural StemCell Growth Media.

#27001-009 Donor Lot HIP-9 neural stem cells transitioned for differnetiation into pan-neurons. When thawed into Neural Differentiation Media and cultured in low oxygen conditions for 21-28 days these NSCs will produce a robust population of...

#25001-001 Includes 1 vial of frozen cryopreserved Donor Lot CxB-1 human cortical neurons on day 10-14 of differentiation that will produce mature functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture...

#25001-002 Includes 1 vial of frozen cryopreserved Donor Lot CxB-2 human cortical neurons on day 10-14 of differentiation that will produce mature functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture...

#25001-003 Includes 1 vial of frozen cryopreserved Donor Lot CxB-3 human cortical neurons on day 10-14 of differentiation that will produce mature functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture...

#25001-004 Includes 1 vial of frozen cryopreserved Donor Lot CxB-4 human cortical neurons on day 10-14 of differentiation that will produce mature functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture...

#25001-009 Includes 1 vial of frozen cryopreserved Donor Lot CxB-009 human cortical neurons on day 10-14 of differentiation that will produce mature functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in...

#25002-003 Includes 1 vial of Donor Lot HIP-3 cryopreserved human hippocampal neurons that will mature into functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in cluture for greater than 60 days. Can be cultured in normal oxygen conditions.

#25002-005 Includes 1 vial of cryopreserved Donor Lot HIP-005 human hippocampal neurons that will mature into functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in cluture for greater than 60 days. Can be cultured in normal oxygen conditions.

#25002-009 Includes 1 vial of cryopreserved Donor Lot HIP-009 human hippocampal neurons that will mature into functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture for greater than 60 days. Can be cultured in normal oxygen conditions.

#25003-003 Includes 1 vial of cryopreserved Donor Lot MHB-3 human midbrain/hindbrain neurons that will mature into functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture for greater than 60 days. Can be cultured in normal oxygen conditions.

#25003-004 Includes 1 vial of cryopreserved Donor Lot MHB-4 human midbrain/hindbrain neurons that will mature into functional neurons in 14-18 days post plating in Neural Differentiation Media. Will last in culture for greater than 60 days. Can be cultured in normal oxygen conditions.

#25004-009 Includes 1 vial of Donor Lot DA-H9 cryopreserved human dopaminergic neurons that will mature into functional neurons in 14-18 days post plating in Dopaminergic Differentiation Media. Will last in culture for greater than 60 days. Can be cultured in normal oxygen conditions.

Human stem cells isolated from fetal and neonatal tissues are distributed by PhoenixSongs for research purposes only. These donated tissues are obtained from several sources, including major university hospitals, US accredited organ procurement organizations or obtained from Advanced Bioscience Resources, Inc. Consent is obtained from the donor, or donor’s next of kin, and conforms to all country specific federal and local legal and ethical standards, including ICH, US HIPAA, US Uniform Anatomical Gift Act, US National Organ Transplant Act and UK HTA requirements.

From these organizations, a copy of the donor consent, medical history, and infectious disease testing for the presence of certain infectious diseases including HIV, HBV, HCV, CMV and RPR is received and reviewed to assure that the cells from each organ may be used for research purposes. Additionally, each tissue supplier working with PhoenixSongs has in place with the source facility material transfer agreements, as well as a review of the process by an internal or external ethics committee from each source facility. We review these documents at the initiation of any new donor source, and if there has been any change or revision to the process. These agreements as well as ethics reviews are reviewed and renewed periodically. Before isolating cells from these tissues, we review the donor consent paperwork to assure the isolation team that the donor, or donor’s next of kin, has given consent for use of the cells obtained from these tissues for research purposes. The consent allows for the use and distribution of the cells both nationally and internationally without limitation. These reports and all other materials pertaining to the donor, the donated organ, and its processing are maintained in a physically secured location, with access available only to authorized persons. The records are stored in a manner to comply with US HIPAA regulations; the records are de-identified. Any reference to the donor’s identity is removed